- Overview
- Definition of a limitation
- Scope
- Contributing
- Pending items
- Architectural limitations
- Miscellaneous
- Appendices
A Kata Container utilizes a Virtual Machine (VM) to enhance security and
isolation of container workloads. As a result, the system has a number of differences
and limitations when compared with the default Docker* runtime,
runc
.
Some of these limitations have potential solutions, whereas others exist due to fundamental architectural differences generally related to the use of VMs.
The Kata Container runtime launches each container within its own hardware isolated VM, and each VM has its own kernel. Due to this higher degree of isolation, certain container capabilities cannot be supported or are implicitly enabled through the VM.
The Open Container Initiative Runtime Specification ("OCI spec") defines the minimum specifications a runtime must support to interoperate with container managers such as Docker. If a runtime does not support some aspect of the OCI spec, it is by definition a limitation.
However, the OCI runtime reference implementation (runc
) does not perfectly
align with the OCI spec itself.
Further, since the default OCI runtime used by Docker is runc
, Docker
expects runtimes to behave as runc
does. This implies that another form of
limitation arises if the behavior of a runtime implementation does not align
with that of runc
. Having two standards complicates the challenge of
supporting a Docker environment since a runtime must support the official OCI
spec and the non-standard extensions provided by runc
.
Each known limitation is captured in a separate GitHub issue that contains
detailed information about the issue. These issues are tagged with the
limitation
label. This document is a curated summary of important known
limitations and provides links to the relevant GitHub issues.
The following link shows the latest list of limitations:
If you would like to work on resolving a limitation, please refer to the contributors guide. If you wish to raise an issue for a new limitation, either raise an issue directly on the runtime or see the project table of contents for advice on which repository to raise the issue against.
This section lists items that might be possible to fix.
The runtime does not provide checkpoint
and restore
commands. There
are discussions about using VM save and restore to give criu
-like functionality, which might provide a solution.
Note that the OCI standard does not specify checkpoint
and restore
commands.
See issue kata-containers/runtime#184 for more information.
The runtime does not fully implement the events
command. OOM
notifications and Intel RDT
stats are not fully supported.
Note that the OCI standard does not specify an events
command.
See issue kata-containers/runtime#308 and kata-containers/runtime#309 for more information.
Currently, only block I/O weight is not supported. All other configurations are supported and are working properly.
The newest version of Docker supported is specified by the
externals.docker.version
variable in the
versions database.
Basic Docker swarm support works. However, if you want to use custom networks
with Docker's swarm, an older version of Docker is required. This is specified
by the externals.docker.meta.swarm-version
variable in the
versions database.
See issue kata-containers/runtime#175 for more information.
Docker compose normally uses custom networks, so also has the same limitations.
Due to the way VMs differ in their CPU and memory allocation, and sharing across the host system, the implementation of an equivalent method for these commands is potentially challenging.
See issue clearcontainers/runtime#341 and the constraints challenge for more information.
For CPUs resource management see CPU constraints.
The runtime does not implement the docker run --shm-size
command to
set the size of the /dev/shm tmpfs
within the container. It is possible to pass this configuration value into the VM container so the appropriate mount command happens at launch time.
See issue kata-containers/kata-containers#21 for more information.
The docker run --sysctl
feature is not implemented. At the runtime
level, this equates to the linux.sysctl
OCI configuration. Docker
allows configuring the sysctl settings that support namespacing. From a security and isolation point of view, it might make sense to set them in the VM, which isolates sysctl settings. Also, given that each Kata Container has its own kernel, we can support setting of sysctl settings that are not namespaced. In some cases, we might need to support configuring some of the settings on both the host side Kata Container namespace and the Kata Containers kernel.
See issue kata-containers/runtime#185 for more information.
Some features enabled or implemented via the
dockerd
daemon configuration are not yet
implemented.
The dockerd
configuration option "selinux-enabled": true
is not presently implemented
in Kata Containers. Enabling this option causes an OCI runtime error.
See issue kata-containers/runtime#784 for more information.
The consequence of this is that the Docker --security-opt is only partially supported.
Kubernetes SELinux labels will also not be applied.
This section lists items that might not be fixed due to fundamental architectural differences between "soft containers" (i.e. traditional Linux* containers) and those based on VMs.
Docker supports the ability for containers to join another containers
namespace with the docker run --net=containers
syntax. This allows
multiple containers to share a common network namespace and the network
interfaces placed in the network namespace. Kata Containers does not
support network namespace sharing. If a Kata Container is setup to
share the network namespace of a runc
container, the runtime
effectively takes over all the network interfaces assigned to the
namespace and binds them to the VM. Consequently, the runc
container loses
its network connectivity.
Docker host network support (docker --net=host run
) is not supported.
It is not possible to directly access the host networking configuration
from within the VM.
The --net=host
option can still be used with runc
containers and
inter-mixed with running Kata Containers, thus enabling use of --net=host
when necessary.
It should be noted, currently passing the --net=host
option into a
Kata Container may result in the Kata Container networking setup
modifying, re-configuring and therefore possibly breaking the host
networking setup. Do not use --net=host
with Kata Containers.
The runtime does not support the docker run --link
command. This
command is now deprecated by docker and we have no intention of adding support.
Equivalent functionality can be achieved with the newer docker networking commands.
See more documentation at docs.docker.com.
Privileged support in Kata is essentially different from runc
containers.
Kata does support docker run --privileged
command, but in this case full access
to the guest VM is provided in addition to some host access.
The container runs with elevated capabilities within the guest and is granted
access to guest devices instead of the host devices.
This is also true with using securityContext privileged=true
with Kubernetes.
The container may also be granted full access to a subset of host devices (kata-containers/runtime#1568).
See Privileged Kata Containers for how to configure some of this behavior.
This section lists limitations where the possible solutions are uncertain.
The --security-opt=
option used by Docker is partially supported.
We only support --security-opt=no-new-privileges
and --security-opt seccomp=/path/to/seccomp/profile.json
option as of today.
Note: The --security-opt apparmor=your_profile
is not yet supported. See kata-containers/runtime#707.
Applying resource constraints such as cgroup, CPU, memory, and storage to a workload is not always straightforward with a VM based system. A Kata Container runs in an isolated environment inside a virtual machine. This, coupled with the architecture of Kata Containers, offers many more possibilities than are available to traditional Linux containers due to the various layers and contexts.
In some cases it might be necessary to apply the constraints to multiple levels. In other cases, the hardware isolated VM provides equivalent functionality to the the requested constraint.
The following examples outline some of the various areas constraints can be applied:
-
Inside the VM
Constrain the guest kernel. This can be achieved by passing particular values through the kernel command line used to boot the guest kernel. Alternatively, sysctl values can be applied at early boot.
-
Inside the container
Constrain the container created inside the VM.
-
Outside the VM:
-
Constrain the hypervisor process by applying host-level constraints.
-
Constrain all processes running inside the hypervisor.
This can be achieved by specifying particular hypervisor configuration options.
-
Constrain the shim process.
This process represents the container workload running inside the VM.
-
Constrain the proxy process.
-
Note that in some circumstances it might be necessary to apply particular constraints to more than one of the previous areas to achieve the desired level of isolation and resource control.